Abstract: An envelope sealing and flipping system can be incorporated into a mail inserter system to seal an envelope with a complete unbroken glue line and simultaneously flip the envelope face-up for downstream processing. The system includes a flip cage that receives an envelope and a moveable wetting brush that contacts the flap. The flip cage rotates, causing the flap to drag underneath the wetting brush, and realigning the envelope with a sealer nip which seals the envelope. The flip cage rotates continuously to receive, flip, and seal many envelopes.

Abstract: An envelope sealing and flipping system can be incorporated into a mail inserter system to seal an envelope with a complete unbroken glue line and simultaneously flip the envelope face-up for downstream processing. The system includes a flip cage that receives an envelope and a moveable wetting brush that contacts the flap. The flip cage rotates, causing the flap to drag underneath the wetting brush, and realigning the envelope with a sealer nip which seals the envelope. The flip cage rotates continuously to receive, flip, and seal many envelopes.

Abstract: A method is provided for using a rotatable insertion horn to open an envelope prior to insertion of documents. A pair of insertion horns is positioned at the sides of an envelope inserting station. An envelope is fed into the envelope inserting station with its flap open. The collation of documents is pushed into the open end of the envelope. The insertion horns are positioned in an initial position that is fully outside the envelope, prior to arrival of the collation. The insertion horns are controlled to simultaneously rotate into the envelope as the collation passes between the insertion horns. Preferably, rotation of the insertion horns into the envelope does not begin until a lead edge of the collation is in a region between the insertion horns. This facilitates insertion of the collation without catching on an upstream edge of the insertion horns.

Abstract: A system and method for wrapping sheet material to produce finished mailpieces includes an upstream content module, a downstream mailpiece assembly module including a wrapper module adapted to encapsulate content material, and a buffer module interposing the upstream content and downstream assembly modules. The buffer module includes a plurality of buffer gates adapted to convey the content material from an upstream gate to a downstream gate to maintain a threshold pitch distance between successive pieces of content material. A controller is operatively coupled to the modules and controls the conveyance of content material through the buffer gates. More specifically, the controller coordinates the delivery and insertion of content material into the wrapper module to minimize dry-holes, maintain stresses below a threshold level to ensure continued operation, and optimize system throughput.

Abstract: An automated apparatus and method for collecting and dispensing rejected cards in a tray in a card attaching system. Sheets are transported on a moving belt. Cards are fed from a feeder above the moving belt. Cards are deposited onto the sheets. When a card rejection condition is detected, a rejected card is diverted and deposited in a tray having a sloped chute. The sloped chute extends down to a lower position beyond an outside edge of the moving belt. To facilitate movement down the chute, the tray is vibrated. This vibration is accomplished by supporting the tray on a roller assembly that rolls on a surface of the moving belt as it passes under the sloped chute. The roller is non-circular or of an eccentric configuration, such that the axis of the roller will experience a vertical displacement as the roller rotates, jogging the tray.

Abstract: An automated apparatus and method for collecting and dispensing rejected cards in a tray in a card attaching system. Sheets are transported on a moving belt. Cards are fed from a feeder above the moving belt. Cards are deposited onto the sheets. When a card rejection condition is detected, a rejected card is diverted and deposited in a tray having a sloped chute. The sloped chute extends down to a lower position beyond an outside edge of the moving belt. To facilitate movement down the chute, the tray is vibrated. This vibration is accomplished by supporting the tray on a roller assembly that rolls on a surface of the moving belt as it passes under the sloped chute. The roller is non-circular or of an eccentric configuration, such that the axis of the roller will experience a vertical displacement as the roller rotates, jogging the tray.

Abstract: A system and method for wrapping sheet material to produce finished mailpieces includes an upstream content module, a downstream mailpiece assembly module including a wrapper module adapted to encapsulate content material, and a buffer module interposing the upstream content and downstream assembly modules. The buffer module includes a plurality of buffer gates adapted to convey the content material from an upstream gate to a downstream gate to maintain a threshold pitch distance between successive pieces of content material. A controller is operatively coupled to the modules and controls the conveyance of content material through the buffer gates. More specifically, the controller coordinates the delivery and insertion of content material into the wrapper module to minimize dry-holes, maintain stresses below a threshold level to ensure continued operation, and optimize system throughput.

Abstract: A registration device for a mail processing system having wide print nozzle arrays that reduces problems associated with printing on variable thickness media. A thin wire, held by guides, is strung across the print nozzle openings in the registration plate to support and guide the top (print) surface of a mail piece and to prevent the mail piece from protruding into the openings. The guides are positioned such that the wire passes between zones where there are no print nozzles located. A tensioning device is provided to adjust the tension of the wire to ensure the wire maintains its position within the openings. The wire acts as a guide to maintain the optimal gap between the mail piece top surface and the print nozzles.

Abstract: An item handling system includes a transport system defining a transport plane, a printer assembly defining a printer plane, and a printer alignment system supporting the printer assembly. The printer alignment system includes a plurality of drive elements configured to move the printer assembly. A method of aligning a printer in the item handling system includes moving the printer assembly to a limit position of the printer alignment system distal from the transport system using the drive elements, moving the printer assembly to a limit position of the printer alignment system proximate to the transport system using the drive elements, and driving each of the drive elements at a respective predetermined level to place the printer plane in a substantially parallel orientation with respect to the transport plane.

Abstract: A registration device for a mail processing system having wide print nozzle arrays that reduces problems associated with printing on variable thickness media. A thin wire, held by guides, is strung across the print nozzle openings in the registration plate to support and guide the top (print) surface of a mail piece and to prevent the mail piece from protruding into the openings. The guides are positioned such that the wire passes between zones where there are no print nozzles located. A tensioning device is provided to adjust the tension of the wire to ensure the wire maintains its position within the openings. The wire acts as a guide to maintain the optimal gap between the mail piece top surface and the print nozzles.

Abstract: A right angle turn module having a first transport that transports side-by-side sheets in a first direction. Downstream of the first sheet transport a barrier is positioned to stop the sheets. A sensor device detects an arrival of the side-by-side sheets at the stop arrangement. Then, an actuated second sheet transport, triggered by the sensor device, is activated to transport the sheets serially in a second direction substantially perpendicular to the first direction. In a preferred embodiment, a horizontal guide plate is positioned at a downstream end of the first sheet transport. With the guide plate thus positioned, a sheet traveling in the first direction and a sheet traveling in the second direction can temporarily be overlapped and a collision can be avoided. In a further preferred embodiment, the first transport further comprises overhead belts to urge the side-by-side pair of sheets in the first direction.

Abstract: A printing assembly includes a transport system configured to transport items on a transport path and a printer rotatably disposed on a support. The printer includes a plurality of printing elements disposed sequentially along the transport path. A method of calibrating the printing assembly includes aligning a first reference associated with the printer with a second reference associated with the support, transporting an item on the transport path, printing a pattern on the item using a first printing element and a second printing element, determining a correction value from the pattern, and rotating the printer relative to the support in an amount corresponding to the correction value to substantially align the printing elements with the transport path.

Abstract: An improved sheet accumulator for stacking serially fed sheets transported on a paper path includes a guide deck. Above the guide deck, a plurality of parallel belts are positioned to provide a driving force for sheets on the deck. Within the accumulator, a ramp apparatus is positioned across the paper path whereby sheets driven by the belts on an upstream portion of the accumulator deck are driven over the ramp apparatus and deposited in an accumulating region of the accumulator deck on a downstream side of the ramp apparatus. Sheets are stopped by an accumulator stop mechanism located at a downstream end of the accumulating region that prevents movement of sheets by the belts while sheets for an accumulation are being collected. When an accumulation is completed, the accumulator stop mechanism allows sheets to be transported from the accumulating region.

Abstract: An item handling system includes a transport system defining a transport plane, a printer assembly defining a printer plane, and a printer alignment system supporting the printer assembly. The printer alignment system includes a plurality of drive elements configured to move the printer assembly. A method of aligning a printer in the item handling system includes moving the printer assembly to a limit position of the printer alignment system distal from the transport system using the drive elements, moving the printer assembly to a limit position of the printer alignment system proximate to the transport system using the drive elements, and driving each of the drive elements at a respective predetermined level to place the printer plane in a substantially parallel orientation with respect to the transport plane.

Abstract: A printing assembly includes a transport system configured to transport items on a transport path and a printer rotatably disposed on a support. The printer includes a plurality of printing elements disposed sequentially along the transport path. A method of calibrating the printing assembly includes aligning a first reference associated with the printer with a second reference associated with the support, transporting an item on the transport path, printing a pattern on the item using a first printing element and a second printing element, determining a correction value from the pattern, and rotating the printer relative to the support in an amount corresponding to the correction value to substantially align the printing elements with the transport path.

Abstract: An apparatus includes a first feed path configured to transport an envelope from an input at an envelope supply to an insertion location, and a second feed path configured to transport the envelope with a mail piece insert therein from the insertion location to an output. The first and second feed paths intersect at an intersection spaced from the insertion location. The paths are angled relative to each other at the intersection.

Abstract: An apparatus includes a first feed path configured to transport an envelope from an input at an envelope supply to an insertion location, and a second feed path configured to transport the envelope with a mail piece insert therein from the insertion location to an output. The first and second feed paths intersect at an intersection spaced from the insertion location. The paths are angled relative to each other at the intersection.

Abstract: An improved sheet accumulator for stacking serially fed sheets transported on a paper path includes a guide deck. Above the guide deck, a plurality of parallel belts are positioned to provide a driving force for sheets on the deck. Within the accumulator, a ramp apparatus is positioned across the paper path whereby sheets driven by the belts on an upstream portion of the accumulator deck are driven over the ramp apparatus and deposited in an accumulating region of the accumulator deck on a downstream side of the ramp apparatus. Sheets are stopped by an accumulator stop mechanism located at a downstream end of the accumulating region that prevents movement of sheets by the belts while sheets for an accumulation are being collected. When an accumulation is completed, the accumulator stop mechanism allows sheets to be transported from the accumulating region.

Abstract: An improved apparatus and method for cutting and processing sheets from a web of printed material comprising first and second side-by-side portions of sheets along a length of the web. A first transport is arranged to transport the web in a first horizontal direction. A web splitter splits portions of the web as they are transported on the first transport. An extended path transport, in line with the first transport, transports the second portion of the web in an extended path. A direct path transport, in line with the first transport, transports the first portion of the web on a more direct path. As a result of these different paths sheets within the first and second web portions are re-sequenced in a manner suitable for processing by downstream modules, such as a right angle turn module.

Abstract: An apparatus for inverting the spatial orientation of sheet material from a desired input to a desired output orientation. The apparatus includes a cage assembly, a torque drive mechanism operative to rotate the cage assembly about a rotational axis and a sheet conveyance mechanism mounting to the cage assembly for conveying sheet material along the rotational axis of the cage assembly. The torque drive mechanism is adapted to assume input and output positions about the rotational axis wherein each position corresponds to the desired input and output orientations of the sheet material. The sheet conveyance mechanism is, further, adapted to: (i) receive sheet material when the cage assembly is in the input position, (ii) eject sheet material when the cage assembly is in the output position and (iii) retard the movement of the sheet material in response to rotation of the cage assembly by the torque drive mechanism.